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NEET MDS 2023 Maharashtra state counselling

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Register blog now Welcome to dental exams NExt Dental exams . Register   📢 Attention MDS Aspirants! 🦷📚 Exciting news for those aiming to pursue their dreams in the field of Dentistry! The Maharashtra State Counseling for NEET MDS 2023 is just around the corner. 🎉 🗓️ Tentative Registration Start Date: August 11, 2023 For regular updates visit website   Are you ready to take the next step towards your dental career? The official registration link for the counseling process is now available.  Click here to access it:  [NEET MDS 2023 Counseling Registration]( https://cetcell.net.in/NEET-PGD-2023/login ) This is your chance to secure a spot in the prestigious MDS courses in Maharashtra . Make sure to mark your calendar and gather all necessary documents for a smooth registration process . Don't miss out on this golden opportunity to shape your professional journey. Re

NExt oral pathology: Ehlers-Danlos syndrome." & apert syndrome

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"Ehlers-Danlos syndrome."  Ehlers-Danlos syndrome (EDS) is a group of rare genetic connective tissue disorders that affect the body's ability to produce collagen, which is a key component of skin, tendons, ligaments, blood vessels, and internal organs. EDS can lead to a wide range of symptoms and complications due to the weakness and fragility of connective tissues. Here's more information about Ehlers-Danlos syndrome: **Causes:** EDS is caused by mutations in genes that are involved in the production of collagen or the structure of connective tissues. Different types of EDS are classified based on the specific gene mutations and the patterns of collagen production they affect. **Symptoms:** The symptoms of EDS can vary widely depending on the type of EDS an individual has. Common symptoms may include: - Hypermobile joints - Fragile and easily bruised skin - Stretchy and hyperelastic skin - Joint pain and dislocations - Weak blood vessels, leading to easy

NExt oral pathology: Bell's palsy and sjogren syndrome

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Bell's palsy is a condition that affects the facial nerve, causing sudden weakness or paralysis of the muscles on one side of the face. It's the most common cause of facial paralysis and often occurs without warning. Here's more information about Bell's palsy: **Causes:** The exact cause of Bell's palsy is not fully understood, but it's thought to be related to inflammation or swelling of the facial nerve, often triggered by a viral infection, particularly herpes simplex virus (HSV). Other factors that might contribute to the development of Bell's palsy include immune system responses, stress, and certain medical conditions. **Symptoms:** The most noticeable symptom of Bell's palsy is sudden weakness or paralysis on one side of the face. Other symptoms may include: - Drooping of the mouth and eyelid on one side - Difficulty closing one eye - Decreased ability to taste on the front two-thirds of the tongue - Changes in tear and saliva producti

NExt oral pathology: Systemic Lupus Erythematosus

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Great! "SLE" stands for Systemic Lupus Erythematosus. It's a complex autoimmune disease that can affect multiple organs and systems in the body. Here's some information about SLE: **Systemic Lupus Erythematosus (SLE):** SLE is a chronic autoimmune disorder where the immune system mistakenly attacks healthy tissues, leading to inflammation, tissue damage, and a range of symptoms. It is known as a systemic disease because it can affect various parts of the body, including the skin, joints, kidneys, heart, lungs, brain, blood cells, and more. **Symptoms:** SLE symptoms can vary widely and may include: - Fatigue - Joint pain and swelling - Skin rashes, particularly the "butterfly" rash on the face - Fever - Photosensitivity (sensitivity to sunlight) - Mouth ulcers - Kidney problems - Cardiovascular issues - Neurological symptoms like headaches and cognitive difficulties **Causes:** The exact cause of SLE is not fully understood, but it is believed to

NExt pathology: ketoacidosis

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Ketoacidosis is a serious medical condition that occurs when the body produces high levels of ketones, acidic compounds, as a result of the breakdown of fats for energy. It most commonly occurs in individuals with diabetes, particularly type 1 diabetes, when there is a lack of sufficient insulin to regulate blood sugar levels. There are two main types of ketoacidosis: diabetic ketoacidosis (DKA) and alcoholic ketoacidosis (AKA). **Diabetic Ketoacidosis (DKA):** DKA is a life-threatening complication of diabetes, particularly type 1 diabetes. It can also occur in some cases of type 2 diabetes. DKA develops when there is not enough insulin available to help the body's cells use glucose for energy. As a result, the body starts breaking down fats instead, leading to the production of ketones. The presence of ketones lowers the blood's pH, making it more acidic, which can have serious consequences. Symptoms of DKA may include excessive thirst, frequent urination, high bl

NExt biochemistry: genetic code &, wobble base pairing

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The genetic code is the set of rules that governs the translation of genetic information stored in DNA or RNA into the corresponding amino acid sequences of proteins. It defines the relationship between sequences of nucleotides (codons) in the genetic material and the specific amino acids they encode. The genetic code is universal across most living organisms, with a few exceptions. Key features of the genetic code include: 1. **Codons:** A codon consists of three consecutive nucleotides (A, T, G, or C in DNA; A, U, G, or C in RNA). Each codon represents a specific amino acid or a start/stop signal. 2. **Amino Acids:** There are 20 standard amino acids that make up proteins. Some amino acids have multiple codons encoding them, while others have only one. 3. **Start and Stop Codons:**    - The start codon, AUG (methionine), signals the beginning of protein synthesis.    - Stop codons (UAA, UAG, UGA) signal the termination of protein synthesis. 4. **Degeneracy:** Most amino a

NExt biochemistry: purine metabolism

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Purine metabolism is the process by which cells synthesize, degrade, and recycle purine nucleotides, which are essential components of DNA, RNA, and various coenzymes. Purines are nitrogenous bases that include adenine and guanine. This metabolism involves pathways like the de novo synthesis of purines, salvage pathways that recycle purine bases, and degradation pathways that lead to the production of uric acid. Disruptions in purine metabolism can lead to conditions like gout and certain genetic disorders. Certainly! Purine metabolism is a complex biochemical process that involves the synthesis, salvage, and degradation of purine nucleotides. These nucleotides are essential building blocks for DNA, RNA, and various coenzymes. Here's a detailed explanation of the main pathways involved: 1. **De Novo Synthesis of Purines:**    The de novo synthesis pathway starts with simple molecules and builds purine nucleotides from scratch. The pathway consists of multiple enzymatic

NExt physiology :eosinophilia and neutrophila

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**Eosinophilia and Neutrophilia:** **Eosinophilia:** Eosinophilia is a condition characterized by an elevated number of eosinophils, a type of white blood cell, in the bloodstream. Eosinophils are involved in the immune response against parasites and in allergic reactions. Eosinophilia can be caused by various factors, and it may be associated with certain diseases and conditions, including: - Allergic reactions: Eosinophils are involved in allergic responses and can increase in number during allergic conditions like asthma, hay fever, and eczema. - Parasitic infections: Eosinophils play a role in defending against parasites, so their levels can rise during certain infections. - Eosinophilic disorders: These are a group of rare conditions where eosinophils accumulate in various organs, leading to inflammation and tissue damage. - Autoimmune diseases: Some autoimmune diseases can cause eosinophilia as part of the immune response. - Certain cancers: In some cases, eosinophili

NExt pharmacology: streotomycin

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**Streptomycin: Chemical Composition, Classification, and Uses:** **Chemical Composition:** Streptomycin is an aminoglycoside antibiotic that is derived from the bacterium Streptomyces griseus. Its chemical structure includes a complex aminocyclitol ring with attached amino sugars. **Classification:** Streptomycin belongs to the class of antibiotics known as aminoglycosides. Aminoglycosides are characterized by their sugar-based structure and their ability to inhibit bacterial protein synthesis. **Uses:** Streptomycin has been historically used for the treatment of various bacterial infections, but its use has become more limited due to concerns about antibiotic resistance and potential side effects. Here are some of its common uses: **1. Tuberculosis Treatment:** Streptomycin was one of the first antibiotics used to treat tuberculosis (TB). It played a significant role in the treatment of drug-sensitive TB. However, due to the development of antibiotic-resistant strains of